Kompanichenko V.N., 2017. Thermodynamic Inversion: Origin of Living Systems. Springer International Publishing, 275 p. https://link.springer.com/book/10.1007/978-3-319-53512-8
Sanjay S. Limaye, Mark A. Bullock, Kevin H. Baines, Charles Cockell, James A. Cutts, Diana Gentry, David Grinspoon, James Head, Kandis L. Jessup, Vladimir Kompanichenko, Yeon J. Lee, Richard Mathies, Tetyana Milojevic, Rakesh Mogul, Rosalyn A. Pertzborn, Lynn Rothschild, Satoshi Sasaki, Dirk Schulze-Makuch, David J. Smith, Michael J. Way, 2021. Venus, an Astrobiology Target. Astrobiology, Volume 21, Number 8. DOI: 10.1089/ast.2020.2268 (WoS)
Kompanichenko Vladimir, 2019. The Rise of a Habitable Planet: Four Required Conditions for the Origin of Life in the Universe. Geosciences, 9, # 92; doi:10.3390/geosciences9020092 (WoS)
Kompanichenko Vladimir, 2019. Exploring the Kamchatka Geothermal Region in the Context of Life’s Beginning. Life, 9, # 41; doi:10.3390/life9020041 (WoS)
Kompanichenko V.N., 2017. Dichotomous hypothesis of the solar system origin: substantiation and consequences for astrobiology. Journal of Astrobiology and Outreach 5: # 155
Kompanichenko V.N., Poturay V.A., Karpov G.A., 2016. Organic compounds in thermal water: the Mutnovskii area and the Uzon caldera // Journal of Volcanology and Seismology. Vol. 10, № 5, 305-319 (WoS).
Kompanichenko V.N., Poturay V.A., Shlufman K.V., 2015. Hydrothermal systems of Kamchatka as the model for prebiotic environment // Origins of Life and Evolution of Biospheres. Vol. 45. № 1-2. P. 93-103 (WoS).
Kompanichenko V.N., 2014. Emergence of biological organization through thermodynamic inversion. Frontiers in Bioscience E6, January 1, 208-224 (Scopus)
Kompanichenko V.N., 2008. Three stages of the origin-of-life process: bifurcation, stabilization and inversion // International Journal of Astrobiology. V. 7, N 1, pp. 27-46 (WoS).